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Ocular Melatonin Rhythms in Teleost Fish
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Melatonin (<i>N</i>-acetyl-5-methoxytryptamine) is synthesized in the pineal organ and the retina of vertebrates. In some teleost species, ocular melatonin levels can exhibit a circadian periodicity with elevated levels during the dark phase under light-dark (LD) cycles and this periodicity can persist even under constant dark (DD) cycles. However, reversed melatonin profiles and an absence of circadian ocular melatonin rhythms have also been reported. In this study, we investigated the daily rhythms of ocular melatonin in 32 teleost species under LD cycles. The melatonin profiles could be classified into three types: (1) normal profiles, with higher melatonin levels during the dark phase than the light phase; (2) reversed profiles, with higher levels during the light phase than the dark phase; (3) no significant differences in melatonin levels. We also studied whether ocular melatonin exhibits circadian rhythms under DD in selected species. Our results showed that ocular melatonin exhibited circadian rhythms in some but not all of the species examined. These results indicate that ocular melatonin rhythms in teleost fish exhibit species-specific variations as a result of the changes in the regulatory mechanisms during the course of evolution.
Title: Ocular Melatonin Rhythms in Teleost Fish
Description:
Melatonin (<i>N</i>-acetyl-5-methoxytryptamine) is synthesized in the pineal organ and the retina of vertebrates.
In some teleost species, ocular melatonin levels can exhibit a circadian periodicity with elevated levels during the dark phase under light-dark (LD) cycles and this periodicity can persist even under constant dark (DD) cycles.
However, reversed melatonin profiles and an absence of circadian ocular melatonin rhythms have also been reported.
In this study, we investigated the daily rhythms of ocular melatonin in 32 teleost species under LD cycles.
The melatonin profiles could be classified into three types: (1) normal profiles, with higher melatonin levels during the dark phase than the light phase; (2) reversed profiles, with higher levels during the light phase than the dark phase; (3) no significant differences in melatonin levels.
We also studied whether ocular melatonin exhibits circadian rhythms under DD in selected species.
Our results showed that ocular melatonin exhibited circadian rhythms in some but not all of the species examined.
These results indicate that ocular melatonin rhythms in teleost fish exhibit species-specific variations as a result of the changes in the regulatory mechanisms during the course of evolution.
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